Machine Learning-Based Comprehensive Prediction Model for L12 Phase-Strengthened Fe–Co–Ni-Based High-Entropy Alloys

IF 2.9 2区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Acta Metallurgica Sinica-English Letters Pub Date : 2024-09-15 DOI:10.1007/s40195-024-01774-1
Xin Li, Chenglei Wang, Laichang Zhang, Shengfeng Zhou, Jian Huang, Mengyao Gao, Chong Liu, Mei Huang, Yatao Zhu, Hu Chen, Jingya Zhang, Zhujiang Tan
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Abstract

L12 phase-strengthened Fe–Co–Ni-based high-entropy alloys (HEAs) have attracted considerable attention due to their excellent mechanical properties. Improving the properties of HEAs through conventional experimental methods is costly. Therefore, a new method is needed to predict the properties of alloys quickly and accurately. In this study, a comprehensive prediction model for L12 phase-strengthened Fe–Co–Ni-based HEAs was developed. The existence of the L12 phase in the HEAs was first predicted. A link was then established between the microstructure (L12 phase volume fraction) and properties (hardness) of HEAs, and comprehensive prediction was performed. Finally, two mutually exclusive properties (strength and plasticity) of HEAs were coupled and co-optimized. The Shapley additive explained algorithm was also used to interpret the contribution of each model feature to the comprehensive properties of HEAs. The vast compositional and process search space of HEAs was progressively screened in three stages by applying different prediction models. Finally, four HEAs were screened from hundreds of thousands of possible candidate groups, and the prediction results were verified by experiments. In this work, L12 phase-strengthened Fe–Co–Ni-based HEAs with high strength and plasticity were successfully designed. The new method presented herein has a great cost advantage over traditional experimental methods. It is also expected to be applied in the design of HEAs with various excellent properties or to explore the potential factors affecting the microstructure/properties of alloys.

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基于机器学习的 L12 相强化铁-铜-镍基高熵合金综合预测模型
L12 相强化铁-铜-镍基高熵合金(HEAs)因其优异的机械性能而备受关注。通过传统实验方法提高 HEA 的性能成本高昂。因此,需要一种新方法来快速准确地预测合金的性能。本研究建立了 L12 相强化铁-铜-镍基 HEA 的综合预测模型。首先预测了 L12 相在 HEA 中的存在。然后在 HEA 的微观结构(L12 相体积分数)和性能(硬度)之间建立联系,并进行综合预测。最后,对 HEAs 的两种互斥性质(强度和塑性)进行了耦合和共同优化。此外,还使用 Shapley 加法解释算法来解释每个模型特征对 HEA 综合特性的贡献。通过应用不同的预测模型,分三个阶段对 HEAs 的巨大成分和工艺搜索空间进行了逐步筛选。最后,从数十万可能的候选组中筛选出四种 HEA,并通过实验验证了预测结果。在这项工作中,成功设计出了具有高强度和高塑性的 L12 相强化铁-铜-镍基 HEA。与传统的实验方法相比,本文介绍的新方法具有很大的成本优势。它还有望应用于设计具有各种优异性能的 HEA,或探索影响合金微观结构/性能的潜在因素。
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来源期刊
Acta Metallurgica Sinica-English Letters
Acta Metallurgica Sinica-English Letters METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
6.60
自引率
14.30%
发文量
122
审稿时长
2 months
期刊介绍: This international journal presents compact reports of significant, original and timely research reflecting progress in metallurgy, materials science and engineering, including materials physics, physical metallurgy, and process metallurgy.
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